Rhythmical leg movements in low-risk and brain-damaged preterm infants.

The characteristics of rhythmical kicking movements of preterm infants with documented brain damage (BD), who later showed a severe motor impairment, are described and compared with those of low-risk (LR) preterm infants. Spontaneous movements were videotaped for 60 min in the incubator or in a warmer. A first group of 6 BD and 6 LR infants was observed at 31-35 weeks of postmenstrual age (PMA) and a second group (6 BD, 6 LR) at 37-39 weeks. Bouts of rhythmical kicks, defined as leg movements repeated in the same form at least three times at regular short intervals, were analysed during periods of activity. The results indicated non-significant differences between BD and LR infants at 31-35 weeks of PMA. In contrast, some differences were observed at 37-39 weeks. These differences were not due to leg movement frequency, but to inter-leg coordination and to temporal organisation of the kicking cycles. LR infants exhibited more alternate-leg movements and fewer semi-both-leg movements (simultaneous flexion and non-simultaneous extension) than BD infants. In LR cases the duration of the pause between flexion and extension was shorter, whereas flexion and extension periods were similar for all infants. Although there were significant differences, quantitative analysis of kicking characteristics was not clinically useful because of the large overlap in findings between the two groups. On the other hand Gestalt evaluation of general movements of the same videorecordings showed a closer correlation with the presence of brain lesions and with neurological outcome.

[1]  G Cioni,et al.  Background EEG activity in preterm infants: correlation of outcome with selected maturational features. , 1994, Electroencephalography and clinical neurophysiology.

[2]  H. Forssberg A Neural Control Model for Human Locomotion Development: Implications for Therapy , 1992 .

[3]  G. Visser,et al.  Abnormal motor behaviour in anencephalic fetuses. , 1985, Early human development.

[4]  G. Cioni,et al.  Preterm and early postterm motor behaviour in low-risk premature infants. , 1990, Early human development.

[5]  H. Prechtl Qualitative changes of spontaneous movements in fetus and preterm infant are a marker of neurological dysfunction. , 1990, Early human development.

[6]  Treadmill stepping in infants born prematurely. , 1994, Early human development.

[7]  S Grillner,et al.  Central pattern generators for locomotion, with special reference to vertebrates. , 1985, Annual review of neuroscience.

[8]  C. Heriza,et al.  Comparison of leg movements in preterm infants at term with healthy full-term infants. , 1988, Physical therapy.

[9]  O Kiehn,et al.  Bistable firing properties of soleus motor units in unrestrained rats. , 1989, Acta physiologica Scandinavica.

[10]  H. Prechtl,et al.  Continuity of neural functions from prenatal to postnatal life , 1984 .

[11]  K. Lorenz Studies in animal and human behaviour , 1970 .

[12]  F. Delcomyn Neural basis of rhythmic behavior in animals. , 1980, Science.

[13]  G. Cioni,et al.  Posture and spontaneous motility in fullterm infants. , 1989, Early human development.

[14]  G Cioni,et al.  Qualitative changes of general movements in preterm infants with brain lesions. , 1990, Early human development.

[15]  E. Thelen,et al.  The organization of spontaneous leg movements in newborn infants. , 1983, Journal of motor behavior.

[16]  P. Eken,et al.  The spectrum of leukomalacia using cranial ultrasound , 1992, Behavioural Brain Research.

[17]  J. D. de Vries,et al.  The emergence of fetal behaviour. I. Qualitative aspects. , 1982, Early human development.

[18]  General movements in early infancy: what do they tell us about the nervous system? , 1993 .

[19]  F. Clarac,et al.  Two types of motor rhythm induced by NMDA and amines in an in vitro spinal cord preparation of neonatal rat , 1990, Neuroscience Letters.

[20]  G. Cioni,et al.  Predictive value of general movements in asphyxiated fullterm infants. , 1993, Early human development.

[21]  S. Grillner,et al.  The locomotion of the low spinal cat. I. Coordination within a hindlimb. , 1980, Acta physiologica Scandinavica.

[22]  H. Prechtl Continuity and change in early neural development , 1984 .

[23]  Albrecht Peiper,et al.  Cerebral function in infancy and childhood , 1963 .

[24]  C. Fawer,et al.  Risk factors in the development of intraventricular haemorrhage in the preterm neonate. , 1982, Archives of disease in childhood.

[25]  E. Thelen Rhythmical stereotypies in normal human infants , 1979, Animal Behaviour.

[26]  G Cioni,et al.  Differences and variations in the patterns of early independent walking. , 1993, Early human development.

[27]  C. Heriza Organization of leg movements in preterm infants. , 1988, Physical therapy.